5G Network Slicing Enabling Edge Services

2020 IEEE Conference on Network Function Virtualization and Software Defined Networks (NFV-SDN) Pub Date : 2020-11-10 DOI:10.1109/NFV-SDN50289.2020.9289880

M. Kourtis, Themis Anagnostopoulos, S. Kukliński, M. Wierzbicki, Andreas Oikonomakis, G. Xilouris, I. Chochliouros, N. Yi, A. Kostopoulos, Lechosław Tomaszewski, Thanos Sarlas, H. Koumaras

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引用次数: 11

Abstract

Network slicing already plays an important role as a critical enabler in the current 5G technology domain. 5G aims to disrupt and accelerate innovation in various vertical fields, among those is the vehicular industry. In the detailed scope of the 5G-DRIVE research project promoting cooperation between the EU and China, a set of trials is to be undertaken towards promoting 5G growth. In this paper, initially, we identify a variety of challenges arising from the 5G convergence to the automotive industry. Then we describe the specific innovative framework of the 5G-DRIVE research, together with a novel network slicing mechanism deployed at the edge. Then an analysis on the corresponding architectures is presented, and how they operate in a set of trials for new 5G services. The services described are a virtualized caching network function (vCache), and a deep packet inspection one (vDPI), which are deployed at the edge facilitating an edge 5G service. For each case, the services are deployed and evaluated in the 5G Drive platform using the Katana slicing framework. Additional analysis of the OSM slicing platform is presented. The results demonstrate the performance of a network slicing mechanism for 5G service deployments in an edge enabled platform.

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5G网络切片支持边缘服务

网络切片作为当前5G技术领域的关键推动者，已经发挥了重要作用。5G旨在颠覆和加速各个垂直领域的创新，其中包括汽车行业。在促进中欧合作的5G- drive研究项目的详细范围内，将开展一系列促进5G增长的试验。在本文中，我们首先确定了5G向汽车行业融合所带来的各种挑战。然后，我们描述了5G-DRIVE研究的具体创新框架，以及部署在边缘的新型网络切片机制。然后对相应的架构进行了分析，以及它们如何在一系列新的5G服务试验中运行。介绍部署在边缘的虚拟化缓存网络功能(vCache)和深度包检测功能(vDPI)，实现边缘5G业务。对于每种情况，使用Katana切片框架在5G Drive平台中部署和评估服务。对OSM切片平台进行了进一步的分析。结果证明了在边缘支持平台中部署5G服务的网络切片机制的性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2020 IEEE Conference on Network Function Virtualization and Software Defined Networks (NFV-SDN)

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